Any conversation about how technology is transforming the world of automobiles is bound to turn into some wild discussion about driverless cars. There’s just no avoiding how obsessed we’ve become with visions of a future where everyone is being whizzed around in some kind of high-tech autonomous vehicle. But of all the innovations from Porsche, one of the most exciting is a feature that continues to raise the thrill factor of being behind the wheel.
That "more approachable" factor takes on entirely different meaning when driving the 420-horsepower 911 Carrera 4S in the canyons of California, and then on the snow-covered Circuit Mecaglisse track in Quebec. In fact, it’s there in Canada, when drifting the Carrera 4S through a series of ice exercises as part of a Porsche Camp4 experience, that one really learns to appreciate the true magic of the 911’s AWD system.
Regardless of how slippery the surface is, the Porsche Traction Management system is incredibly responsive in working to quickly get the vehicle back on track. For example, when the system senses that there is oversteer or slippage of the rear wheels on ice, it immediately sends more torque to the front axle, and reduces power to the rear axle, helping the car to pull itself out of the slide. The second the system detects that the car is going into understeer in a slippery situation, you can sense it sending power to the rear axle to reduce slippage.
The AWD system’s sensors, working in combination with Porsche Stability Management (PSM), continuously monitor the speed of all four wheels individually to detect slippage and distribute power in the best way possible. The technology is continuously assessing factors like speed, steering angle and weight distribution between the front or rear axle, to decide how to best react to slippage.
On a canyon road, the feel for the AWD system’s inner workings are a bit less dramatic than they are on an icy track. But the technology is just as mind-boggling on dry asphalt, upon which it really comes to life when cornering the car through some hairpin turns, high in a California mountain. Of course, the fallout from tire slippage can have far greater repercussions there compared to the simple embarrassment that comes with hitting a snowbank at the test facility in Quebec.
"It feels that way because a 911 with Porsche Traction Management is designed to function as a rear-wheel drive car until the very moment when you need power at the front wheels, and it really improves traction and driving dynamics," explains Achleiter.
Then again, as Achleiter points out, the technology in the AWD system in the 911 has always been grounded in Porsche’s racing heritage, dating back to the Type 953, which ran in the 1984 Paris-Dakar Rally.
"The all-wheel drive in the 911 had to prove its capability first in sport success with the fabulous victories in the Paris Dakar race, then in the famous 959," says the head of the 911 series. “In the 80s, the main aspect had been more to improve driving dynamics. Later, with the start of the last air-cooled 993, it became more the optimization of traction.”
Our Porsche Camp4 instructor, Pierre Des Marais, a seasoned Porsche motorsports driver, was kind enough to gives us a better feel of exactly how far the carmaker’s race-inspired four-wheel traction system has evolved during an adrenaline-rushing hot lap at Circuit Mecaglisse.
Looking to push the technology even further, Achleiter says that Porsche is now busily working to find ways to make the next reiteration of the AWD system lighter, quicker and capable of handling even more torque.
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